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We are seeking applicants interested in communication design, digital learning design and youth arts to undertake a PhD that exploring online frameworks for capturing learning experiences in youth arts. The University will fund the Scholarship for a fixed term of 3 years offering a stipend of...
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PhD Scholarship – Natural Interaction Strategies for Long-Term Robot Use for Elderly Care Job No.: 672833 Location: Clayton campus Employment Type: Full-time Duration: 3.5-year fixed-term
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Research scholarship funded by RMIT School of Computing Technologies. The scholarship is for 3 years; there would be a fee waiver and the standard stipend. Research scholarship funded by RMIT School of Computing Technologies. The scholarship is for 3 years; there would be a fee waiver and the...
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tools. The emphasis is on designing advanced interaction models and procedural guidance systems that enable safe, effective, and intuitive use of imaging equipment by non-specialists. Research Scope
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collaboration with researchers from QUT – Professor Jonathan Roberts and Doctor Steph Hutchison and will be situated within the School of Creative Arts at QUT. Moving with Robots investigates the use
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the intersection of Visualisation and emerging immersive display and interaction technologies, such as augmented and virtual reality. The research group is directed by Professor Tim Dwyer. We seek to bring data out
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numerical modelling framework to simulate how light and heat interact with the target body tissue, while also incorporating neural signalling dynamics to explore how light-based stimulation affects
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of the elderly, and particularly females, displays heightened persistent chronic inflammation or ‘inflammaging’. Mechanistically, it may be caused by epigenetic re-programming of monocytes, resulting in
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the next frontier of photonic quantum technologies. About the Project: Making Strongly Interacting Photons investigates a remarkable class of particles called polaritons — hybrids of light and matter
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at electrified aqueous–hydrophobic interfaces, study enantiospecific interactions and forces, develop the next generation of chiral polymeric coatings, and explore poorly understood forms of mass transport